KR20220000517A - Dewatering machine with adjustable moisture content - Google Patents

Abstract

Provided is a dewatering machine with an adjustable moisture content, and the dewatering machine with an adjustable moisture content of the present invention includes: a screen having a hollow inside thereof, having one side with an inlet through which livestock manure is input and the other side with an outlet through which the dewatered livestock manure is discharged, and having a plurality of moisture outlet holes formed through an inside and outside thereof; a screw having a rotation shaft and main wings formed in a spiral shape along a longitudinal direction of the rotation shaft; and at least one moisture content adjustment wings disposed between the main wings in a region corresponding to a side of the outlet, and formed in a spiral shape along the longitudinal direction of the rotation shaft. Thus, it is possible to easily remove the moisture from the livestock manure including fibers and easily adjust the moisture content of the dewatered livestock manure.

Description

Dewatering machine with adjustable moisture content}

The present invention relates to a dewatering machine that can be applied to remove moisture from livestock manure and the like.

Livestock manure refers to manure discharged from cows, cattle, pigs, and chickens, etc. Livestock manure has various moisture content such as those with high water content and those with low water content.

And such livestock manure is used after removing a certain amount of moisture using a dehydrating device and composting it.

However, livestock manure dehydrated using the existing dewatering device has a moisture content of about 60 to 70%, so it does not reach the conditions for composting.

Accordingly, in order to lower the moisture content of the dehydrated livestock manure for composting of livestock manure to 50% or less, a device capable of controlling the moisture content when dehydrating livestock manure is required.

KR 10-0912781 B1 (2009.08.11.)

The present invention has been devised to solve the problems as described above, and an object of the present invention is to facilitate the removal of moisture from livestock manure containing fiber and to easily control the moisture content contained in the dehydrated livestock manure. It is to provide a dewatering machine with adjustable content.

The dewatering machine capable of controlling the moisture content of the present invention for achieving the above object is hollow inside, an inlet into which livestock manure is put is formed on one side, and an outlet through which dehydrated livestock manure is discharged on the other side is formed. , Screen having a plurality of moisture discharge holes penetrating the inside and outside; a screw having a main blade helically formed along a rotation shaft and a longitudinal direction of the rotation shaft; and at least one moisture content control blade disposed between the main blades in a region corresponding to the outlet side and spirally formed along the longitudinal direction of the rotation shaft. may include

In addition, the moisture content control blade may be formed to be detachably attached to the rotation shaft.

In addition, the moisture content control blade may be formed of a single or a plurality of blade pieces.

In addition, a guide groove is formed concavely along the spiral direction on the rotation shaft, and the moisture content control blade is inserted along the guide groove of the rotation shaft and the blade protruding to the outside of the rotation shaft to be coupled to one side of the blade. can

In addition, the guide groove may be formed to have an inner width wider than an outer width in the radial direction of the rotation shaft, and the insertion portion of the moisture content control blade may be formed in a shape corresponding to the guide groove.

In addition, the moisture content control blades are configured in plurality, the moisture content control blades may be arranged to be spaced apart along the circumferential direction.

In addition, the moisture content control blade may be formed in a form in which the width of the introduction part, which is the side where the livestock manure is introduced in a spiral direction, becomes narrower from the discharge side of the livestock manure to the inflow side.

In addition, the screw, at least a portion including the rotation shaft and the main blade to which the moisture content control blade is coupled may be formed to be detachably attached to the remaining portion.

In addition, the moisture discharge holes of the screen are formed in the form of a slot having a length longer than the width in a direction connecting the inlet and the outlet, and the slots may be arranged to be spaced apart in the circumferential direction.

In addition, the screen may include a plurality of wedge wires extending along a direction connecting the inlet and the outlet and arranged to be spaced apart along the circumferential direction; and a support part coupled to the wedge wires to fix the wedge wires to each other. may include

In addition, the wedge wires may be formed in such a way that the spacing between the wedge wires adjacent to each other increases from the inside to the outside in the radial direction.

Also, the wedge wire may have a triangular cross-section, and the wedge wire may be disposed such that one side of the triangular shape is positioned inside the wedge wire in the radial direction, and the opposite edge of the wedge wire faces outward in the radial direction.

The dewatering machine capable of controlling the water content of the present invention has the advantage that it is easy to remove water from the livestock manure containing fiber and can easily control the water content contained in the dehydrated livestock manure.

1 is a front cross-sectional view showing a dehydration machine capable of controlling moisture content according to an embodiment of the present invention.
2 to 5 are a perspective view, a front view, a right side view, and a partially enlarged view showing a state in which a moisture content control blade is mounted on a screw of a dewatering machine capable of controlling water content according to an embodiment of the present invention.
6 is a cross-sectional view showing the coupling structure of the moisture content control blade and the rotation shaft of the screw of the dewatering machine capable of controlling the moisture content according to an embodiment of the present invention.
7 to 10 are exploded perspective views and assembly perspective views showing embodiments of the moisture content control blades in the dehydration machine capable of controlling the moisture content according to an embodiment of the present invention.
11 to 13 are a perspective view, a side view, and a partial cross-sectional view showing a screen of a dewatering machine capable of controlling water content according to an embodiment of the present invention.

Hereinafter, the dehydration machine capable of controlling the water content of the present invention will be described in detail with reference to the accompanying drawings.

1 is a front cross-sectional view showing a dewatering machine with adjustable moisture content according to an embodiment of the present invention, and FIG. 2 is a screw of the dewatering machine with adjustable moisture content according to an embodiment of the present invention. It is a perspective view showing the state in which it was made.

1 and 2, the dewatering machine capable of controlling the moisture content according to an embodiment of the present invention may be largely composed of a screen 200, a screw 300, and a moisture content control blade 400, and a housing ( 100) and a driving means 340 may be further included.

The housing 100 is formed in the form of an empty inside, the input part 110 in the form of a hopper into which the livestock manure (A) is put is formed on one upper side, and the dehydrated livestock manure (B) is discharged at the lower part of the other side A portion 120 may be formed. In addition, a urine recovery pipe 500 may be connected to a lower portion of the housing 100, and the urine recovery pipe 500 may be connected to a urine storage tank (not shown), and the urine collected in the lower inner side of the housing 100 after being dehydrated It may flow and be stored in the urine storage tank along the urine recovery pipe 500 .

The screen 200 is formed in a substantially cylindrical shape, for example, and is provided inside the housing 100 , and the outside of the screen 200 is coupled to the housing 100 in a spaced apart state from the housing 100 and may be fixed. . And the screen 200 has a hollow inside, an inlet 240 into which livestock manure (A) is input is formed on one side, and an outlet 250 through which dehydrated livestock manure (B) is discharged on the other side is formed, the screen ( 200) may be formed with a plurality of moisture discharge holes 230 penetrating the inside and the outside. In addition, in the screen 200, the inlet 240 is disposed on the input part 110 side of the housing 100 to communicate, and the outlet 250 is disposed on the discharge part 120 side of the housing 100 to be in communication. can

The screw 300 may include a rotation shaft 310 and a main blade 320 . The rotation shaft 310 may be formed in a shape in which a diameter gradually increases from one side to the other side. The main blade 320 may be formed such that the pitch gradually decreases from one side to the other side, and the outer diameter of the main blade 320 is the distance to the end of the main blade 320 in the radial direction based on the central axis of the rotation shaft 310 . may be uniformly formed from one side to the other. Thus, the screw 300 may be formed such that the depth of the valley portion forming the region between the neighboring main wings 320 and the outer circumferential surface of the rotation shaft 310 gradually decreases from one side to the other. In addition, the screen 200 has a constant inner diameter so as to have a shape corresponding to the outer shape of the screw 300 , and the outer end portion that is the outer diameter of the main wings 320 , which is a surface forming the radially outer side of the screw 300 . A surface connecting them may be disposed parallel to the inner circumferential surface of the screen 200 . In addition, both sides of the rotating shaft 310 can be drawn out of the housing 100 through the housing 100 on both sides, and the rotating shaft 310 is mounted on the housing 100 with a bearing 330 so that one side and the other side are rotatable, respectively. can be combined. In addition, the main blade 320 may be formed in a plate shape and spirally formed along the central axis of the rotation shaft 310 , and for reference, the main blade 320 of the screw 300 is formed in a quadruple spiral. However, it can be variously formed into a single spiral or double spiral or more. In addition, as an example, the rotation shaft 310 and the main blade 320 are formed separately, and the screw 300 may be formed by assembling the main blade 320 to the rotation shaft 310 and then combining them by welding or the like. The screw 300 may be formed in various shapes (processing, casting, etc.). In addition, the rotating shaft 310 of the screw 300 may be formed as a hollow shaft with an empty interior, and a plurality of water discharge holes penetrating the inner and outer peripheral surfaces of the rotating shaft 310 may be formed. Therefore, moisture can be discharged into the inner space of the rotary shaft 310 through the water discharge holes formed in the rotary shaft 310, so dehydration of livestock manure is very easy. In addition, the rotary joint 700 is coupled to the other end of the rotary shaft 310 of the screw 300 , and the rotary joint 700 communicates with the inner space of the rotary shaft 310 , and moisture collected in the inner space of the rotary shaft 310 . It may be collected in the urine storage tank through the urine recovery pipe 500 connected to the rotary joint 170 .

The driving means 340 may be a reduction motor for driving the screw 300 , and the driving means 340 may be fixed by being coupled to the housing 100 or the base, and the driving shaft of the driving means 340 is a screw. It may be coupled to one end of the rotation shaft 310 of the 300 by a coupling or the like.

Thus, livestock manure (A) supplied to the input unit 110 of the housing 100 is compressed while being transferred from one side to the other by the rotation of the screw 300, and in this process, the moisture is dehydrated and collected in the urine storage tank. . And the dehydrated livestock manure (B) is discharged through the gap formed between the rotating shaft 310 and the screen 200 at the other end of the screw 300 and discharged to the outside through the discharge unit 120 of the housing 100. can And since the transfer cross-sectional area of the screw 300, which is an area in which livestock manure (A) can exist, is formed to gradually narrow from one side in the direction in which livestock manure is transported to the other side, accordingly, livestock manure is transferred to the other side of the screw 300. As it becomes more and more compressed, it can be easily dehydrated. That is, since the conveying cross-sectional area decreases in the pitch direction and the depth direction as the livestock manure is transported, the overall squeeze effect occurs while the livestock manure is reduced in volume, thereby maximizing the dehydration effect of the livestock manure.

In the area corresponding to the outlet 250 side of the screen 200, which is the discharge side from which the dehydrated livestock manure (B) is discharged, the rotation shaft 310 of the screw 300 has a length between the main blades 320 . At least one or more moisture content control blades 400 helically formed along the direction may be installed.

Since the moisture content control blade 400 is formed only in a specific range from the other end of the rotation shaft 310 , the length of the moisture content control blade 400 may be formed to be very short compared to the length of the main blade 320 . That is, the moisture content control blade 400 may be formed only on the other end portion of the screw 300 , which is an area corresponding to the outlet 250 side of the screen 200 . In addition, the moisture content control blade 400 may be disposed at a position spaced apart from the main blade 320 , and the moisture content control blade 400 may be formed in parallel with the main blade 320 . In addition, the outer diameter of the moisture content control blade 400 , which is the distance from the central axis of the rotation shaft 310 to the outer end in the radial direction, may be formed to be the same as the outer diameter of the main blade 320 .

Thus, livestock manure that is dehydrated while passing between the screen 200 and the screw 300 can be finally dehydrated by the moisture content control blade 400 formed on the outlet side can be controlled. That is, it is possible to control the moisture content contained in the dehydrated livestock manure (B) discharged toward the discharge unit (120).

In addition, the load preventing device 600 is installed between the inlet 240 and the outlet 250 of the screen 200, and when the pressure inside the screen 200 rises above a predetermined pressure, the load preventing device 600 is installed. Through the livestock manure can be discharged to the outside of the screen (200). At this time, the load prevention device 600 may be connected by a pipe such that one side is connected to the screen 200 and the other side is connected to the input unit 110 of the housing 100 .

In addition, the screw 300 may be formed in a form in which two or more parts are coupled while going from one side to the other. For example, at least a portion including the rotation shaft 310 and the main blade 320 corresponding to the region in which the moisture content control blade 400 is present may be detachably formed in the remaining portion. In addition, as shown, the screw 300 corresponding to the input unit 110 side into which livestock manure is put may also be formed in a detachable form.

3 and 4 are a front view and a right side view showing a state in which the moisture content control blade is mounted on the screw of the dewatering machine capable of controlling the water content according to an embodiment of the present invention.

3 and 4 , a plurality of moisture content control blades 400 may be configured, and in this case, a plurality of moisture content control blades 400 may be disposed to be spaced apart from each other in the circumferential direction. That is, as shown, the moisture content control blades 400 are respectively disposed between the quadruple spiral main blades 320 , and the four moisture content control blades 400 may be mounted thereon.

Figure 5 is a partially enlarged view of a state in which the moisture content control blade is mounted on the screw of the dewatering machine capable of controlling the moisture content according to an embodiment of the present invention.

Referring to FIG. 5 , the moisture content control blade 400 may be formed in such a way that the introduction part 430 on which livestock manure is introduced in a spiral direction becomes narrower in width from the discharge side to the inflow side of the livestock manure.

As an example, both sides of the introduction part 430, which is one end of the moisture content control blade 400 in the spiral direction, are formed in a chamfered form, so that livestock manure does not get caught in the introduction part 430 of the moisture content control blade 400 and the main blade 320 ) and the moisture content control blade 400 can be easily introduced.

6 is a cross-sectional view showing the coupling structure of the moisture content control blade and the rotation shaft of the screw of the dewatering machine capable of controlling the moisture content according to an embodiment of the present invention.

Referring to FIG. 6 , in the dewatering machine capable of controlling the moisture content according to an embodiment of the present invention, the moisture content control blade 400 may be detachably formed on the rotation shaft 310 of the screw 300 . Therefore, it is possible to replace the moisture content control blade 400 according to the moisture content of the dehydrated livestock manure desired, so that the moisture content of the dehydrated livestock manure can be easily adjusted.

For example, the guide groove 311 may be concavely formed in the rotation shaft 310 of the screw 300 along the spiral direction. And the moisture content control blade 400 may be formed to include the blade 410 and the insertion part 420 formed on one side thereof, and the insertion part 420 of the moisture content control blade 400 is a guide groove of the rotation shaft 310 . It may be formed in a shape corresponding to (311). Thus, the insertion part 420 of the moisture content control blade 400 may be inserted into the guide groove 311 of the rotation shaft 310 to be coupled and fixed. At this time, the guide groove 311 is formed to be wider on the inside than the width on the outside in the radial direction of the rotation shaft 310, and the insertion part 420 of the moisture content control blade 400 is formed in a shape corresponding thereto, The insertion part 420 of the moisture content control blade 400 may be inserted along the spiral direction in which the guide groove 311 is formed. Thus, it is easy to fix the moisture content control blade 400 by coupling it to the rotation shaft 310 , and the moisture content control blade 400 can be maintained in a firmly fixed state without being separated from the rotation shaft 310 .

7 to 10 are exploded perspective views and assembly perspective views showing embodiments of the moisture content control blades in the dehydration machine capable of controlling the moisture content according to an embodiment of the present invention.

Referring to FIG. 7 , the moisture content control blade 400 may be formed of a single or a plurality of blade pieces. That is, the moisture content control blade 400 may be formed as a single piece, but as the length of one moisture content control blade 400 is formed longer, it is difficult to fix or attach it to the rotation shaft 310 because it is difficult to adjust the moisture content. When the blade 400 is formed in a shape that connects a plurality of pieces in a spiral direction, replacement and attachment of the moisture content control blade 400 may be easy.

As an example, referring to FIGS. 7 and 8 , the four moisture content control blade pieces 400a having both the blade 410 and the insertion part 420 are coupled to the guide groove 311 of the rotation shaft 310 to be relatively The length of the moisture content control blade 400 may be formed long. Alternatively, referring to FIGS. 9 and 10 , the length of the moisture content control blade 400 may be formed relatively short by coupling the two moisture content control blade pieces 400a to the guide groove 311 . In this way, the length of the moisture content control blade 400 can be adjusted by adjusting the number of the moisture content control blade pieces 400a. At this time, the two filling blocks 400b formed only by the insertion part 420 without the blade 410 are first inserted into the guide groove 311, and then the two moisture content control blade pieces 400a are coupled to the guide groove 311. Accordingly, there is no empty space in the guide groove 311 and it is possible to prevent movement along the guide groove 311 of the moisture content control wing pieces 400a.

11 to 13 are a perspective view, a side view, and a partial cross-sectional view showing a screen of a dewatering machine capable of controlling water content according to an embodiment of the present invention.

11 to 13 , the screen 200 may include a plurality of wedge wires 210 and a support unit 220 coupled thereto to fix the wedge wires 210 . The wedge wire 210 may be formed in a long wire shape along a direction connecting the inlet 240 and the outlet 250 of the housing 100, and the plurality of wedge wires 210 are parallel to each other in the circumferential direction. It can be arranged to be spaced apart. And the support 220 is a circumferential support formed in a ring shape or a flange shape may be coupled to the outside of the wedge wires 210, a plurality of circumferential supports are arranged spaced apart from one side to the other side to the wedge wire 210 can be combined. In addition, a longitudinal support connecting the plurality of circumferential supports may be coupled to the circumferential supports, and both ends of the inlet 240 side and the outlet 250 side are coupled to a flange-shaped support, wedge wire 210 can be firmly supported.

Accordingly, a water discharge hole 230 having a length compared to the width may be formed in a slot shape between the wedge wires 210 . Accordingly, it is easy to remove moisture from livestock manure containing fiber, and sufficient dehydration effect can be obtained. In addition, it is possible to easily control the moisture content of the dehydrated livestock manure by preventing the failure of the water discharge hole clogged by the fibers contained in the livestock manure.

In addition, the wedge wires 210 of the screen 200 may have a cross-section cut in a radial direction to be formed in a triangular shape, and the wedge wires 210 have one side radially inside in the triangular cross-section and the opposite edge is It may be arranged to face radially outward. That is, the wedge wires 210 may be formed in a shape in which the distance between the wedge wires 210 adjacent to each other increases from the inside to the outside in the radial direction. The cross section may be formed in a triangular shape, so that two corners face the corners of the wedge wires 210 adjacent to each other and the other corners may be arranged to face outward in the radial direction. Thus, the dehydrated urine, sludge, or some solids discharged from the inside of the screen 200 may be smoothly discharged, so that the water discharge hole may not be blocked.

The present invention is not limited to the above-described embodiments, and the scope of application is varied, and anyone with ordinary knowledge in the field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims It goes without saying that various modifications are possible.

100: housing
110: input unit 120: discharge unit
200: screen
210: wedge wire 220: support
230: moisture discharge hole 240: inlet
250: outlet
300: screw
310: axis of rotation 320: main wing
330: bearing 340: driving means
400: moisture content control wing
400a: moisture content control wing piece 400b: filling block
410: blade 420: insert
430: introduction
500: urine recovery pipe
600: load prevention device
700: rotary joint
A: Livestock manure B: Dehydrated livestock manure

Claims (12)

A screen having a hollow inside and an inlet through which livestock manure is put on one side and an outlet through which dehydrated livestock manure is discharged on the other side is formed, and a plurality of water discharge holes penetrating the inside and the outside are formed;
a screw having a main blade helically formed along a rotation shaft and a longitudinal direction of the rotation shaft; and
at least one moisture content control blade disposed between the main blades in an area corresponding to the outlet side and spirally formed along the longitudinal direction of the rotation shaft;
A dewatering machine with adjustable moisture content, including:
According to claim 1,
The moisture content control blade is a dewatering machine capable of controlling water content, characterized in that it is detachably formed on the rotating shaft.
3. The method of claim 2,
The moisture content control blade is a dewatering machine capable of controlling the moisture content, characterized in that formed by a single or a plurality of blade pieces.
3. The method of claim 2,
A guide groove is formed concavely along the spiral direction in the rotation shaft,
The moisture content control blade is a dewatering machine capable of controlling water content, characterized in that the blade protruding to the outside of the rotation shaft and an insertion portion inserted and coupled along the guide groove of the rotation shaft are formed on one side of the blade.
5. The method of claim 4,
The guide groove is formed to have an inner width wider than an outer width in the radial direction of the rotation shaft,
Dewatering machine capable of controlling water content, characterized in that the insertion part of the moisture content control blade is formed in a shape corresponding to the guide groove.
According to claim 1,
The moisture content control blade is composed of a plurality,
The moisture content control blades are dewatering machine capable of controlling the moisture content, characterized in that arranged spaced apart along the circumferential direction.
According to claim 1,
The moisture content control blade is a dewatering machine capable of controlling water content, characterized in that the introduction part, which is the side where livestock manure is introduced in the spiral direction, is formed in a form that is narrower in width from the discharge side to the inflow side of the livestock manure.
According to claim 1,
The screw is
A dewatering machine capable of controlling water content, characterized in that at least a portion including the main blade and the rotating shaft to which the moisture content control blade is coupled is detachably formed on the remaining portion.
According to claim 1,
Dewatering machine capable of controlling water content, characterized in that the water discharge holes of the screen are formed in the form of a slot having a length longer than the width in a direction connecting the inlet and the outlet, and the slots are spaced apart along the circumferential direction.
10. The method of claim 9,
The screen is
a plurality of wedge wires extending along a direction connecting the inlet and outlet and arranged to be spaced apart in a circumferential direction; and
a support part coupled to the wedge wires to fix the wedge wires to each other; A dewatering machine with adjustable moisture content, including:
11. The method of claim 10,
The wedge wire is a dewatering machine capable of controlling water content, characterized in that the wedge wire is formed in a shape in which the spacing between adjacent wedge wires increases from the inside to the outside in the radial direction.
12. The method of claim 11,
The wedge wire is formed in a triangular cross-section,
The wedge wire is a dewatering machine capable of controlling water content, characterized in that one side of the triangular shape is positioned on the inside in the radial direction and the opposite corner is disposed so that the edge part faces outward in the radial direction.

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